Course syllabus NUMO - Numerical Optimalization of Wood Product (FFWT - WS 2019/2020)


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Course code:
NUMO
Course title in Czech:
Numerical Optimalization of Wood Product
Course title in English:
Numerical Optimalization of Wood Product
Semester: WS 2019/2020
Mode of completion and number of credits:
Fulfillment of requirements (3 credits)
Mode of delivery and timetabled classes:
full-time, 0/2 (hours of lectures per week / hours of seminars per week)
part-time, 18/0 (lectures per period / seminars per period)
Level of course:
master; master continuing
Course type:
required
Type of delivery:
usual
Mode of delivery for our mobility students abroad:
-- item not defined --
Language of instruction:
Czech
Course supervisor:
Course supervising department: Department of Wood Science and Technology (FFWT)
Faculty:
Teachers:
Ing. David Děcký, Ph.D. (instructor)
Ing. Jaromír Milch, Ph.D. (examiner, instructor, lecturer)
Ing. Pavlína Suchomelová (instructor)
Ing. Jan Tippner, Ph.D. (examiner, instructor, lecturer, supervisor)
Ing. Barbora Vojáčková, DiS. (instructor)
Prerequisites:
not Finite Elemet Method in Wood Technology and State Bachelor Examination
 
Timetable in this semester:
-- item not defined --
 
Aim of the course and learning outcomes:
To provide information about the advanced methods of numerical modeling in the field of wood product design and material engineering; to learn knowledge and skills: theoretical basis of numerical analysis, finite element method (FEM), methodological procedures of computational model creation and simulation, practical calculations of physical problems in the field.
 
Course content:
1.FEM background and principles. (allowance 0/6)
 
a.
Advanced application of continuum mechanics and thermodynamics.
b.
Variational methods.
c.
Use of numerical methods and FEM.

2.
Modeling in ANSYS. (allowance 0/8)
 
a.Modeling of advanced structural, thermodynamic nonlinear problems in ANSYS (part 1).
b.
Modeling of advanced structural, thermodynamic nonlinear problems in ANSYS (part 2).
c.Implementation of nonlinear material models, interpretation of nonlinear material models.
d.
Probabilistic modeling in ANSYS.

3.
Optimization. (allowance 0/6)
 
a.Topological optimization of selected product.
b.Design Optimization (part 1).
c.
Design Optimization (part 2).

4.Solving of physical problems. (allowance 0/6)
 
a.
Solution of static mechanical problems.
b.
Solution of dynamic mechanical problems.
c.
Advanced thermal analysis, solution of coupled-field problems.

Learning activities and teaching methods:
Type of teaching method
Daily attendance
Combined form
practice
28 h
0 h
consultation12 h
18 h
preparation for regular assessment5 h
15 h
preparation of presentation
5 h
5 h
writing of seminar paper34 h
46 h
Total
84 h
84 h
 
Assessment methods:
Elaboration and presentation of seminary project, test (from lectures).
 
Assessment criteria ratio:
Requirement typeDaily attendanceCombined form
Total
0 %
0 %
 
Recomended reading and other learning resources:
Basic:
JANÍČEK, P. Systémové pojetí vybraných oborů pro techniky : hledání souvislostí : učební texty I. 1st ed. Brno: Akademické nakladatelství CERM, 2007. 682 p. ISBN 978-80-214-3544-5.
JANÍČEK, P. Systémové pojetí vybraných oborů pro techniky : hledání souvislostí : učební texty II. 1st ed. Brno: Akademické nakladatelství CERM, 2007. 683 p. ISBN 978-80-7204-556-32.
KOLÁŘ, V. -- NĚMEC, I. -- KANICKÝ, V. FEM - Principy a praxe metody konečných prvků. 1st ed. Praha: Computer Press, 1997. 12 p. ISBN 80-7226-021-9.
PETRUŠKA, J. Počítačové metody mechaniky II – Metoda konečných prvků. Brno: VUT v Brně, 2003. 88 p.

Recommended:
MADENCI, E. -- GUVEN, I. The finite element method and applications in engineering using ANSYS. New York: Springer, 2006. 686 p. ISBN 0-387-28289-0.
MOAVENI, S. Engineering fundamentals: an inroduction to engineering. 4th ed. Stamford, CT: Cengage Learning, 2011. 700 p. ISBN 978-1-4390-6210-4.
MOAVENI, S. Finite elements analysis : theory and application with ANSYS. Upper Saddle River: Prentice Hall, 1999. 527 p. ISBN 0-13-785098-0.
SLAVÍK, J. Počítačové metody mechaniky I. Brno: Akademické nakladatelství CERM, 2003. ISBN 80-214-2311-0.

Course listed in study plans for this semester:
Programme C-TMZD Technology And Management In Wood Processing, part-time form, initial period WS 2019/2020
Programme C-TMZD Technology And Management In Wood Processing, full-time form, initial period WS 2019/2020
 
Course listed in previous semesters:
WS 2020/2021 (and older)
Teaching place:
Brno


Last modification made by Ing. Alice Malá on 11/19/2019.

Type of output: